A method for operating a fluid drainage control system to drain a fluid from a fluid dispensation system is provided. The method includes determining a first ambient air temperature, determining if the first ambient air temperature is less than a predetermined drain set point temperature, isolating the fluid dispensation system from a fluid supply source by closing a supply valve located inside a temperature controlled area in response to the first ambient air temperature being less than the predetermined drain set point temperature, and draining the fluid from the fluid dispensation system by opening a drain valve subsequent to closing the supply valve. The method further includes determining a second ambient air temperature, determining if the second ambient air temperature is greater than a predetermined operation set point temperature, closing the drain valve in response to the second ambient air temperature being greater than the predetermined operation set point temperature, and opening the supply valve subsequent to closing the drain valve.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A method for operating a fluid drainage control system to drain a fluid from a fluid dispensation system comprising: determining a first ambient air temperature; determining if the first ambient air temperature is less than a predetermined drain set point temperature; isolating the fluid dispensation system from a fluid supply source by closing a supply valve located inside a temperature controlled area in response to the first ambient air temperature being less than the predetermined drain set point temperature; draining the fluid from the fluid dispensation system by opening a drain valve subsequent to closing the supply valve; determining a second ambient air temperature; determining if the second ambient air temperature is greater than a predetermined operation set point temperature; closing the drain valve in response to the second ambient air temperature being greater than the predetermined operation set point temperature; and opening the supply valve subsequent to closing the drain valve.
2. The method of claim 1 wherein the fluid drainage control system controls a plurality of drain valves.
3. The method of claim 2 wherein the fluid dispensation system comprises a fluid backflow prevention device; wherein one of the plurality of drain valves is on the input side of the backflow prevention device; and wherein a second of the plurality of drain valves is on the output side of the backflow prevention device.
4. The method of claim 1 wherein the fluid drainage control system controls a plurality of supply valves.
5. The method of claim 1 wherein the fluid drainage control system disables fluid distribution valves in the fluid dispensation system in response to the first ambient air temperature being less than the predetermined drain set point temperature.
6. The method of claim 1 wherein the fluid drainage control system electrically actuates the supply valve and electrically actuates the drain valve.
7. The method of claim 6 wherein the supply valve is in a normally open state when not energized.
8. The method of claim 6 wherein the drain valve is in a normally closed state when not energized.
9. The method of claim 6 wherein the supply valve or the drain valve is a latched solenoid valve.
10. The method of claim 1 wherein the predetermined drain set point temperature is different than the operation set point temperature.
11. The method of claim 1 wherein the fluid drainage control system is implemented within a fluid dispensation system controller.
12. A fluid drainage control system for draining fluid from a fluid dispensation system comprising: a communication interface configured to receive and transmit control signals; a processing system coupled to the communication interface and configured to: receive a first control signal through the communication interface indicating a first ambient air temperature; determine if the first ambient air temperature is less than a predetermined drain set point temperature; isolate the fluid dispensation system from a fluid supply source by sending a second control signal through the communication interface to close a supply valve located inside a temperature controlled area in response to the first ambient air temperature being less than the predetermined drain set point temperature; drain the fluid from the fluid dispensation system by sending a third control signal through the communication interface to open a drain valve subsequent to sending the second control signal; receive a fourth control signal through the communication interface indicating a second ambient air temperature; determine if the second ambient air temperature is greater than a predetermined operation set point temperature; close the drain valve in response to the second ambient air temperature being greater than the predetermined operation set point temperature by sending a fifth control signal through the communication interface; and open the supply valve by sending a sixth control signal through the communication interface subsequent to sending the fifth control signal.
13. The fluid drainage control system of claim 12 wherein the processing system controls a plurality of drain valves.
14. The fluid drainage control system of claim 13 wherein the fluid dispensation system comprises a fluid backflow prevention device; wherein one of the plurality of drain valves is on the input side of the backflow prevention device; and wherein a second of the plurality of drain valves is on the output side of the backflow prevention device.
15. The fluid drainage control system of claim 12 wherein the processing system controls a plurality of supply valves.
16. The fluid drainage control system of claim 12 wherein the processing system disables fluid distribution valves in the fluid dispensation system in response to the first ambient air temperature being less than the predetermined drain set point temperature.
17. The fluid drainage control system of claim 12 wherein the processing system electrically actuates the supply valve and electrically actuates the drain valve.
18. The fluid drainage control system of claim 12 wherein the predetermined drain set point temperature is different than the operation set point temperature.
19. The fluid drainage control system of claim 12 wherein the processing system is implemented within a fluid dispensation system controller.
20. A fluid drainage control system for draining fluid from a fluid dispensation system comprising: a temperature sensor; at least one supply valve; at least one drain valve; fluid dispensation pipe; a communication interface configured to receive and transmit control signals; a processing system coupled to the communication interface and configured to: receive a first control signal through the communication interface from the temperature sensor indicating a first ambient air temperature; determine if the first ambient air temperature is less than a predetermined drain set point temperature; isolate the fluid dispensation pipe from a fluid supply source by sending a second control signal through the communication interface to close the supply valve in response to the first ambient air temperature being less than the predetermined drain set point temperature; drain the fluid from the fluid dispensation pipe by sending a third control signal through the communication interface to open the drain valve subsequent to sending the second control signal; receive a fourth control signal from the temperature sensor through the communication interface indicating a second ambient air temperature; determine if the second ambient air temperature is greater than a predetermined operation set point temperature; close the drain valve in response to the second ambient air temperature being greater than the predetermined operation set point temperature by sending a fifth control signal through the communication interface; open the supply valve by sending a sixth control signal through the communication interface subsequent to sending the fifth control signal.
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April 16, 2013
February 10, 2015
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